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Java Map.entry案例详解

时间:2021-11-19 15:00     来源/作者:屌丝男士zkc

   Map.entrySet() 这个方法返回的是一个Set<Map.Entry<K,V>>,Map.Entry 是Map中的一个接口,他的用途是表示一个映射项(里面有Key和Value),而Set<Map.Entry<K,V>>表示一个映射项的Set。Map.Entry里有相应的getKey和getValue方法,即JavaBean,让我们能够从一个项中取出Key和Value。

下面是遍历Map的四种方法:

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public static void main(String[] args) {
 
 
  Map<String, String> map = new HashMap<String, String>();
  map.put("1", "value1");
  map.put("2", "value2");
  map.put("3", "value3");
  
  //第一种:普遍使用,二次取值
  System.out.println("通过Map.keySet遍历key和value:");
  for (String key : map.keySet()) {
   System.out.println("key= "+ key + " and value= " + map.get(key));
  }
  
  //第二种
  System.out.println("通过Map.entrySet使用iterator遍历key和value:");
  Iterator<Map.Entry<String, String>> it = map.entrySet().iterator();
  while (it.hasNext()) {
   Map.Entry<String, String> entry = it.next();
   System.out.println("key= " + entry.getKey() + " and value= " + entry.getValue());
  }
  
  //第三种:推荐,尤其是容量大时
  System.out.println("通过Map.entrySet遍历key和value");
  for (Map.Entry<String, String> entry : map.entrySet()) {
   System.out.println("key= " + entry.getKey() + " and value= " + entry.getValue());
  }
 
  //第四种
  System.out.println("通过Map.values()遍历所有的value,但不能遍历key");
  for (String v : map.values()) {
   System.out.println("value= " + v);
  }
 }

下面是HashMap的源代码:

首先HashMap的底层实现用的时候一个Entry数组

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/**
     * The table, resized as necessary. Length MUST Always be a power of two.
     */ 
   transient Entry[] table; //声明了一个数组 
   ........ 
   public HashMap() { 
        this.loadFactor = DEFAULT_LOAD_FACTOR; 
        threshold = (int)(DEFAULT_INITIAL_CAPACITY * DEFAULT_LOAD_FACTOR); 
        table = new Entry[DEFAULT_INITIAL_CAPACITY];//初始化数组的大小为DEFAULT_INITIAL_CAPACITY(这里是16) 
        init(); 
    }

再来看一下Entry是在什么地方定义的,继续上源码,我们在HashMap的源码的674行发现了它的定义,原来他是HashMap的一个内部类,并且实现了Map.Entry接口,以下有些地方是转载

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static class Entry<K,V> implements Map.Entry<K,V> { 
    final K key; 
    V value; 
    Entry<K,V> next; 
    final int hash; 
  
    /**
     * Creates new entry.
     */
    Entry(int h, K k, V v, Entry<K,V> n) { 
        value = v; 
        next = n; 
        key = k; 
        hash = h; 
    
  
    public final K getKey() { 
        return key; 
    
  
    public final V getValue() { 
        return value; 
    
  
    public final V setValue(V newValue) { 
 V oldValue = value; 
        value = newValue; 
        return oldValue; 
    
  
    public final boolean equals(Object o) { 
        if (!(o instanceof Map.Entry)) 
            return false
        Map.Entry e = (Map.Entry)o; 
        Object k1 = getKey(); 
        Object k2 = e.getKey(); 
        if (k1 == k2 || (k1 != null && k1.equals(k2))) { 
            Object v1 = getValue(); 
            Object v2 = e.getValue(); 
            if (v1 == v2 || (v1 != null && v1.equals(v2))) 
                return true
        
        return false
    
  
    public final int hashCode() { 
        return (key==null   ? 0 : key.hashCode()) ^ 
               (value==null ? 0 : value.hashCode()); 
    
  
    public final String toString() { 
        return getKey() + "=" + getValue(); 
    
  
    /**
     * This method is invoked whenever the value in an entry is
     * overwritten by an invocation of put(k,v) for a key k that's already
     * in the HashMap.
     */
    void recordAccess(HashMap<K,V> m) { 
    
  
    /**
     * This method is invoked whenever the entry is
     * removed from the table.
     */
    void recordRemoval(HashMap<K,V> m) { 
    
}

既然这样那我们再看一下Map.Entry这个接口是怎么定义的,原来他是Map的一个内部接口并且定义了一些方法

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  interface Entry<K,V> { 
    /**
 * Returns the key corresponding to this entry.
 *
 * @return the key corresponding to this entry
        * @throws IllegalStateException implementations may, but are not
        *         required to, throw this exception if the entry has been
        *         removed from the backing map.
 */
K getKey(); 
  
    /**
 * Returns the value corresponding to this entry.  If the mapping
 * has been removed from the backing map (by the iterator's
 * <tt>remove</tt> operation), the results of this call are undefined.
 *
 * @return the value corresponding to this entry
        * @throws IllegalStateException implementations may, but are not
        *         required to, throw this exception if the entry has been
        *         removed from the backing map.
 */
V getValue(); 
  
    /**
 * Replaces the value corresponding to this entry with the specified
 * value (optional operation).  (Writes through to the map.)  The
 * behavior of this call is undefined if the mapping has already been
 * removed from the map (by the iterator's <tt>remove</tt> operation).
 *
        * @param value new value to be stored in this entry
        * @return old value corresponding to the entry
        * @throws UnsupportedOperationException if the <tt>put</tt> operation
        *         is not supported by the backing map
        * @throws ClassCastException if the class of the specified value
        *         prevents it from being stored in the backing map
        * @throws NullPointerException if the backing map does not permit
        *         null values, and the specified value is null
        * @throws IllegalArgumentException if some property of this value
        *         prevents it from being stored in the backing map
        * @throws IllegalStateException implementations may, but are not
        *         required to, throw this exception if the entry has been
        *         removed from the backing map.
        */
V setValue(V value); 
  
/**
 * Compares the specified object with this entry for equality.
 * Returns <tt>true</tt> if the given object is also a map entry and
 * the two entries represent the same mapping.  More formally, two
 * entries <tt>e1</tt> and <tt>e2</tt> represent the same mapping
 * if<pre>
        *     (e1.getKey()==null ?
        *      e2.getKey()==null : e1.getKey().equals(e2.getKey()))  &&
        *     (e1.getValue()==null ?
        *      e2.getValue()==null : e1.getValue().equals(e2.getValue()))
        * </pre>
 * This ensures that the <tt>equals</tt> method works properly across
 * different implementations of the <tt>Map.Entry</tt> interface.
 *
 * @param o object to be compared for equality with this map entry
 * @return <tt>true</tt> if the specified object is equal to this map
 *         entry
        */
boolean equals(Object o); 
  
/**
 * Returns the hash code value for this map entry.  The hash code
 * of a map entry <tt>e</tt> is defined to be: <pre>
 *     (e.getKey()==null   ? 0 : e.getKey().hashCode()) ^
 *     (e.getValue()==null ? 0 : e.getValue().hashCode())
        * </pre>
 * This ensures that <tt>e1.equals(e2)</tt> implies that
 * <tt>e1.hashCode()==e2.hashCode()</tt> for any two Entries
 * <tt>e1</tt> and <tt>e2</tt>, as required by the general
 * contract of <tt>Object.hashCode</tt>.
 *
 * @return the hash code value for this map entry
 * @see Object#hashCode()
 * @see Object#equals(Object)
 * @see #equals(Object)
 */
int hashCode(); 
   }

看到这里的时候大伙儿估计都明白得差不多了为什么HashMap为什么要选择Entry数组来存放key-value对了吧,因为Entry实现的Map.Entry接口里面定义了getKey(),getValue(),setKey(),setValue()等方法相当于一个javaBean,对键值对进行了一个封装便于后面的操作,从这里我们其实也可以联想到不光是HashMap,譬如LinkedHashMap,TreeMap 等继承自map的容器存储key-value对都应该使用的是Entry只不过组织Entry的形式不一样,HashMap用的是数组加链表的形式,LinkedHashMap用的是链表的形式,TreeMap应该使用的二叉树的形式,不信的话上源码

LinkedHashMap:

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/**
    * The head of the doubly linked list.
    */
/定义了链头 
   private transient Entry<K,V> header;

初始化链表的方法:

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void init() { 
    header = new Entry<K,V>(-1, null, null, null); 
    header.before = header.after = header; 
}

TreeMap:

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//定义根节点 
 private transient Entry<K,V> root = null;

再看他的put方法,是不是很面熟(二叉排序树的插入操作)

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public V put(K key, V value) { 
    Entry<K,V> t = root; 
    if (t == null) { 
 // TBD: 
 // 5045147: (coll) Adding null to an empty TreeSet should 
 // throw NullPointerException 
 // 
 // compare(key, key); // type check 
        root = new Entry<K,V>(key, value, null); 
        size = 1
        modCount++; 
        return null
    
    int cmp; 
    Entry<K,V> parent; 
    // split comparator and comparable paths 
    Comparator<? super K> cpr = comparator; 
    if (cpr != null) { 
        do
            parent = t; 
            cmp = cpr.compare(key, t.key); 
            if (cmp < 0
                t = t.left; 
            else if (cmp > 0
                t = t.right; 
            else
                return t.setValue(value); 
        } while (t != null); 
    
    else
        if (key == null
            throw new NullPointerException(); 
        Comparable<? super K> k = (Comparable<? super K>) key; 
        do
            parent = t; 
            cmp = k.compareTo(t.key); 
            if (cmp < 0
                t = t.left; 
            else if (cmp > 0
                t = t.right; 
            else
                return t.setValue(value); 
        } while (t != null); 
    
    Entry<K,V> e = new Entry<K,V>(key, value, parent); 
    if (cmp < 0
        parent.left = e; 
    else
        parent.right = e; 
    fixAfterInsertion(e); 
    size++; 
    modCount++; 
    return null
}

ok,明白了各种Map的底层存储key-value对的方式后,再来看看如何遍历map吧,这里用HashMap来演示吧

Map提供了一些常用方法,如keySet()、entrySet()等方法,keySet()方法返回值是Map中key值的集合;entrySet()的返回值也是返回一个Set集合,此集合的类型为Map.Entry。

so,很容易写出如下的遍历代码

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1.  Map map = new HashMap(); 
  
         Irerator iterator = map.entrySet().iterator(); 
  
         while(iterator.hasNext()) { 
  
                 Map.Entry entry = iterator.next(); 
  
                 Object key = entry.getKey(); 
  
                 // 
  
         
  
     2.Map map = new HashMap();  
  
         Set  keySet= map.keySet(); 
  
         Irerator iterator = keySet.iterator; 
  
         while(iterator.hasNext()) { 
  
                 Object key = iterator.next(); 
  
                 Object value = map.get(key); 
  
                 // 
  
         
另外,还有一种遍历方法是,单纯的遍历value值,Map有一个values方法,返回的是value的Collection集合。通过遍历collection也可以遍历value,如
[java] view plain copy
Map map = new HashMap(); 
  
Collection c = map.values(); 
  
Iterator iterator = c.iterator(); 
  
while(iterator.hasNext()) { 
  
       Object value = iterator.next();

到此这篇关于Java Map.entry案例详解的文章就介绍到这了,更多相关Java Map.entry内容请搜索服务器之家以前的文章或继续浏览下面的相关文章希望大家以后多多支持服务器之家!

原文链接:https://blog.csdn.net/kyi_zhu123/article/details/52769469

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